Method for peeling fruits and vegetables

ABSTRACT

The present apparatus for skinning or peeling of produce comprises a rotatably mounted pressure vessel having a cover operable from within the vessel for sealing the vessel. The cover is pressure operated and permitted to fall open under the force of gravity upon pressure release. A pivoted latching pawl is provided in the pressure vessel for engaging the cover to hold it open. The pawl is also gravity operated to latch the cover in an open position. In the process for skinning or peeling produce, the pressure vessel is loaded with the produce, sealed and steam is introduced therein to rapidly increase the pressure and temperature within the vessel sufficiently so that a layer under the skin of the produce will come to a boil in response to pressure release. The pressure is maintained for a given period until the layer of the produce under its skin is sufficiently heated. Then the pressure is reduced to atmospheric pressure in either one or two steps, whereby said boiling occurs and the skin is removed thereby.

BACKGROUND OF THE INVENTION

This invention relates to a process for skinning or peeling produce, such as tomatoes and peaches and similar fruits, in which the layer of the produce directly under its skin is quickly heated by steam. The invention is also directed to an apparatus for performing the method.

German Patent Publication (Offenlegungsschrift) No. 2,060,447 discloses a process for peeling tomatoes in which the tomatoes are fed to a steamer. Steam is discharged from jets into the steamer at a temperature of about 360° to 400°C and at a pressure of up to 3 atmospheres, whereby the skins of the tomatoes are rapidly heated, so that the water directly under the skin of the tomatoes is brought to a boil. This boiling water tears the skin, so that a part of the skin falls off the body of the tomatoes. As described in said publication, the known method has the disadvantage that only a part of the skin falls off. Hence manual completion of the peeling of the tomatoes is necessary following the steam treatment in order to remove the remainder of the skin. In addition, the steam acts in a non-uniform manner on the tomatoes, so that the tomatoes are partly overheated and partly underheated. Besides, this process requires the use of equipment to superheat the steam and having sufficient capacity. The cost of such equipment is rather high.

This publication also discloses a process in which the tomatoes are heated to a temperature of about 60° to 100°C and then put into a vacuum of less than 300 mm of Mercury. Consequently, the skins explosively burst open due to the rapid boiling of the liquid under the skin. This process has the disadvantage that it requires the use of vacuum equipment. In addition, in said further known method the treatment of the surface area of the tomatoes is also not uniform and it is also necessary following the vacuum treatment to manually handle at least those tomatoes to which skin still partially adheres in order to completely remove the skins.

It is also known to remove the skins from potatoes or similar hard produce by means of a steam peeler, as described in German Pat. No. 1,234,690 and in U.S. Pat. No. 3,164,181. In the process described in these publications, the pressure within a pressure vessel containing the potatoes is brought to a pressure of about 7 atmospheres (gauge) within about 10 seconds. The potatoes are exposed to this pressure for about 45 seconds while rotating the pressure vessel. The pressure is then released and the potatoes are removed from the pressure vessel. The process is limited, however, for peeling only relatively hard produce, such as potatoes.

The above mentioned German Pat. No. 1,234,690 discloses a peeling apparatus which includes a pressure vessel with a hydraulically operated device for opening and closing the vessel. A source of pressure is provided to operate the hydraulic arrangement. A pressure cylinder is mounted inside the pressure vessel. A piston in the cylinder is connected through a piston rod to a cover to open and close the pressure vessel from within. The cover is held in the open position by means of a spring. The pressure vessel, the hydraulically operated opening and closing device and the cover are supported for rotation as a unit. The pressure cylinder is connected to said pressure source by means of a connecting conduit. The pressure cylinder is provided with discharge openings in its cylinder wall. These openings are arranged so that the pressure outlets are uncovered by the piston only when the cover is closed.

The spring employed in this arrangement is subject to a substantial tension, and is hence subject to a very large wear and tear. In addition, the cover is not completely opened as soon as the spring force slackens. In addition, the arrangement has the disadvantage that the cover may be closed by switching on of the pressure in any position of the system. Therefore, the operator must continually pay attention that the pressure is not accidentally switched on when tending the pressure vessel, for example, for refilling.

OBJECTS OF THE INVENTION

In view of the above it is the aim of the invention to achieve the following objects singly or in combination:

to provide a process which enables the skinning or peeling of produce such as vegetables or fruits, and especially soft fruits, such as tomatoes and peaches;

to provide a process for gently peeling soft fruits and vegetables by means of steam, in which the fruits or vegetables are not damaged and in which it is not necessary to provide means for super-heating steam or for producing a vacuum;

to provide an apparatus for steaming produce, especially soft produce such as tomatoes and peaches, which apparatus does not have the disadvantages of the prior art;

to provide an apparatus for skinning soft fruits and vegetables such as peaches and tomatoes wherein the pressure within the pressure vessel may be rapidly brought to a desired pressure and temperature, the pressure vessel may be rotated, and wherein the opening and closing arrangement for the pressure vessel does not require the use of springs; and

to provide means in a pressure vessel for skinning fruits and vegetables, whereby the cover of the vessel may be latched in an open position without the use of springs and so as to avoid accidental closing.

SUMMARY OF THE INVENTION

In accordance with the invention there is provided a process for peeling fruits and vegetables, especially peaches and tomatoes, in which the layer directly under the skin of the fruit or vegetable is briefly heated by means of steam. In this process the fruits or vegetables are loaded into a pressure vessel which rotates during the entire process. Hot, wet steam is introduced into the pressure vessel, so that a relatively high pressure is built up in the vessel in a matter of seconds. This pressure is maintained until the layer under the skin of the fruit or vegetable is heated to such an extent that boiling under the skin will result in response to pressure release for which purpose the pressure is rapidly released from the pressure vessel.

The invention further provides an apparatus for skinning produce, comprising a rotatably supported pressure vessel having a cover operated from within the vessel to open the cover inwardly. A hydraulic apparatus is employed for controlling the opening and closing of the cover. The apparatus further comprises a latching pawl that is operable under the force of gravity to hold the cover in an open position. The latching pawl is pivotally mounted for tilting about an axis that extends substantially parallel to the rotational axis of the pressure vessel. The center of gravity of the latching lever lies between its pivoting axis and a hook provided at the opposite end of the lever. A weight may be provided, preferably as an integral part of the latching pawl adjacent to its hook end. The latching pawl is so mounted that its hook engages the cover in the completely open position thereof at a first rotated position of the pressure vessel, to thereby hold the cover in its opened position until the pressure vessel reaches a second rotational position in which the cover is held open by its own weight. In the latter position of the cover, the latching pawl is released from the cover under the force of gravity. Preferably, the longitudinal axis of the pawl and the longitudinal axis of the pressure vessel each include with the horizontal an angle of less than 45°.

The arrangement of the present invention enables the skinning of fruits and vegetables, especially soft fruits, such as tomatoes or peaches, without the difficulty and without adversely affecting the quality of the fruit or vegetable.

According to the invention there is further provided an opening and closing device for a vessel, especially a pressure vessel having an inwardly opening cover operable by a piston cylinder arrangement. The rotational axis of the vessel is arranged in such a manner that the cover will assume the open position in response to gravity when the vessel reaches a predetermined position. A catch pawl operable by gravity and in response to predetermined rotational positions of the vessel is arranged to pivot about an axis extending substantially in parallel to the rotational axis of the vessel. The pawl is provided with a catch hook at its end opposite the pivot end thereof. The pawl has its center of gravity between its pivot end and its hook end, preferably close to the hook end. The catch hook engages the cover in a first rotational position of the vessel and stays engaged with the cover to hold it securely in its open position until the vessel reaches another rotational position in which the cover is held open by its own weight. The pawl may be provided with stop means for limiting the movement of the pawl in the disengaging direction.

BRIEF FIGURE DESCRIPTION

In order that the invention may be clearly understood, it will now be described, by way of example, with reference to the accompanying drawings, wherein:

FIG. 1 is a side view of the present system, partially in section through the pressure vessel in accordance with the invention, whereby the section extends through the longitudinal axis of the vessel and the rotational axis of the vessel extends substantially horizontally;

FIG. 1a illustrates schematically the preferred location of the rotational axis of the pressure vessel relative to the horizontal;

FIG. 2 is a partial sectional view similar to that of FIG. 1 through the vessel taken along section line 2--2 in FIG. 1, whereby the section plane is rotated by 90° relative to FIG. 1; and

FIG. 3 is a sectional view through the vessel illustrated in FIG. 2, disposed at a different angular position, whereby the cover is latched in its open position and wherein as in FIG. 2, the cover and the latching pawl are not shown in section for the sake of clarity.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

Referring now to FIG. 1 there is illustrated an apparatus for performing the method of skinning or peeling produce, such as fruits and vegetables in accordance with the invention. The apparatus of the invention comprises a pressure vessel 1 shown in section along its longitudinal axis in FIG. 1. The pressure vessel 1 has a generally rounded bottom section 2, substantially cylindrical central section 3, and a top section 4 formed generally somewhat as a truncated conical shape which curves into the cylindrical portion. The pressure vessel may be formed by any conventional technique, for example by forming the three separate sections and then welding them together.

The smaller diameter end of the top section 4 defines preferably, but not necessarily, a circular opening in the top of the pressure vessel 1, as illustrated in FIG. 1. A flange 5 is welded to the opening. A ring 6 is affixed to the flange coaxially therewith, for example, by bolting. A hopper or funnel 7 is connected, for example, by welding to the outside of the ring 6 to facilitate loading of produce into the pressure vessel. A sealing ring 8 is also secured to the flange 5 at its inner periphery to provide a seal for the pressure vessel, as will be described below.

An aperture is provided at the center of the bottom section 2 and a flange 9 is secured to the bottom of the pressure vessel preferably through a neck 9a extending between the flange 9 and the bottom of the pressure vessel.

A device 10 for opening and closing the opening in the pressure vessel extends through the flange 9 and through the neck into the vessel. This device 10 comprises a hollow cylinder 11 extending coaxially with the longitudinal axis of the pressure vessel and into the pressure vessel while a portion of the cylinder 11 extends outside of the pressure vessel, A piston 12 is slidably positioned within the cylinder 11 and carries a piston rod 13 extending upwardly through an aperture in the upper end wall of the cylinder 11. A closure member or cover 14 is secured to the upper end of the piston rod 13, so that in an upper position of the piston 12, the cover 14 coacts with the sealing ring 8 to seal the pressure vessel, as illustrated in dotted lines in the drawing.

Outlet openings 15 are provided in the wall of the hollow cylinder 11 at such a height that a pressure medium in the cylinder 11 below the piston 12 is exhausted into the pressure vessel at the instant when the cover 14 sealingly engages the sealing ring 8, since at that time the piston 12 clears the openings 15. A pressure conduit 16 is connected to the lower end of the cylinder 11 by any conventional means. For example, as illustrated in FIG. 1, an additional flanged member 9b may be bolted to the flange 9 to surround the lower end of the cylinder 11 to securely hold the cylinder 11 in position. A flange 16a at the end of the conduit 16 is bolted or otherwise affixed to a lower flange 9c on the member 9b. The conduit 16 is connected to a pressure supply line 17 by means more fully described below.

The pressure vessel 1 is supported for rotation about an axis 31 (FIG. 2) extending transversely to the longitudinal axis of the pressure vessel illustrated in FIG. 1. For this purpose, pipe connections 18, 19 are welded or otherwise suitably affixed to the sides of the pressure vessel to extend axially thereof, the axis of the pipe connections 18, 19 extending through the center of gravity of the pressure vessel. The pipe connections 18, 19 are affixed to hollow support shafts 20, 21, for example by means of suitable flanges. The hollow support shafts 20, 21 are journaled in bearings, for example sleeve bearings 22. The conduit 16 is connected to the hollow support shaft 20. A suitable pressure outlet opening (not shown) is provided inside of the pipe connection 19, for release of pressure from the pressure vessel 1.

The pressure supply line 17 extends into the hollow support shaft 20 and is supported inside of the sleeve bearing 22. The pressure supply line 17 is sealed, for example, by means of a stuffing box or oil seal ring in the sleeve bearing or journal 22. A steam outlet 21a similarly extends into the hollow support shaft 21 through the journal 22a, and is sealed in a similar manner by means of a stuffing box or sealing ring.

In addition to the above described inlets and outlets to the pressure vessel 1, further pipe connections may be provided on the pressure vessel for connecting thereto a venting valve, a safety valve, and manometer.

The pressure vessel 1 may be rotated by any conventional means, for example, by a motor (not shown) coupled by driving belts or other transmission means to a pulley 21b secured to the hollow support shaft 21, since the entire pressure vessel assembly including the conduit 16 is rotatably supported in the journals 22 and 22a.

Referring now to FIGS. 2 and 3, which illustrate different positions of the pressure vessel 1 in section in a plane transverse to the plane of FIG. 1, a latching pawl 23 is provided in the pressure vessel as part of the opening and closing device 10. The latching pawl 23 is rotatably supportged on an axis 24 extending in parallel to the axis 31 of rotation of the pressure vessel 1. The axis of the latching pawl may be provided in the form of a suitable shaft affixed, by means of a metal band 30 to the outside wall of the hollow cylinder 11. The metal band 30 may, for example, be screwed to the hollow cylinder. Alternatively, the pivotal support may be affixed to the hollow cylinder 11 by any other conventional means, for example, by welding.

The latching pawl 23 is pivotally supported by its axis 24 and is positioned so that a hook 23a on the end of the lever can extend into locking engagement with the cover 14, as illustrated in FIG. 3. To this end, the center of gravity of the pawl 23 lies between the hook 23a and the axis 24, so that the latching pawl 23 swings about its axis under the force of gravity, as the pressure vessel rotates or tilts counterclockwise in the direction of the arrow, as illustrated in FIG. 2. The force of gravity on the latching pawl 23 forces the hook 23a into engagement with the cover 14 as soon as the pressure vessel has been rotated by a certain angle. If desired, two latching pawls may be provided mirror-symmetrically to each other, whereby tilting in either direction would result in the locking of the cover 14. In the upright position of the pressure vessel, as shown in FIG. 2 and in the absence of any pressure applied to the cylinder 11, the cover 14 is free to fall from the opening in the pressure vessel under the force of gravity. The cover is not latched in this position since the force of gravity pulls the latching pawl out of engagement with the cover 14. An extension 23c of the pawl 23 limits the opening movement of the pawl 23.

In order to facilitate the latching of the cover 14 by the latching pawl, a suitable shoulder 25 is affixed to the inside of the cover and positioned to be engaged by the latching pawl 23. The latching of the shoulder 25 by the latching hook 23a is a result, as above discussed, of the force of gravity acting on the latching pawl 23. Once the hook 23a has engaged the shoulder 25, a restraint on its release results from friction between these members. Further, when the pressure vessel has been rotated, for example, to the position shown in FIG. 3, gravity forces acting on the cover 14 also serve to tighten the latching effect between the hook 23a and the shoulder 25. This latching effect thus will continue until the pressure vessel has rotated to a position, for example, as shown in FIG. 2, in which gravity acting on the pawl 23 forces the latching pawl out of engagement with the shoulder 25. In order to enhance the action of gravity on the latching pawl 23, a suitable weight 23b may be affixed to the pawl 23. To facilitate the tilting movement of the pawl 23, the angle b between the horizontal and the journal axis 24 of the pawl 23 should be less then 45°. The respective angle b between the horizontal and the rotational axis 31 of vessel 1 would correspondingly be less than 45° where the axes 24 and 31 extend in parallel to each other as they preferably should, see FIG. 1a.

For the operation of the system, a suitable steam inlet valve 50 may be provided in the pressure supply line 17, and a suitable steam outlet valve 51 may be provided in the outlet connection 21a.

FIGS. 1 and 2 show the pressure vessel in the rest position. At the start of a cycle of operation, the steam inlet valve 50 is closed and the steam outlet valve 51 is open. Consequently, no pressure is applied to the piston 12 and the cover 14 therefore takes up its lowermost position under the force of gravity, so that the pressure vessel is completely open. Simultanously, also under the force of gravity, the pawl 23 is out of engagement with the shoulder 25. In this position, the pressure vessel 1 can be loaded through the funnel 7 with produce to be skinned.

By opening of the steam inlet valve 50 and simultaneously closing of the steam outlet valve 51 and the safety valve (not shown), the pressure medium, i.e. the steam, enters the pressure conduit 16 through the pressure supply line 17 and through the hollow support shaft 20, whereby a lifting force is applied to the piston 12, and consequently the piston rod 13 urges the cover 14 upwardly into sealing engagement with the sealing ring 8, as shown in the dashed position thereby sealing the pressure vessel. The diameter of the piston 12 is selected so that the pressure applied to the piston 12 exerts the necessary lifting force on the cover 14. The length of the piston rod 13 is selected so that the cover 14 engages the sealing ring 8 when the upper ports 15 in the cylinder are uncovered by the piston, whereby the increasing pressure within the vessel firmly holds the cover 14 in sealing engagement with the sealing ring 8. The pressure vessel is now ready for the desired treatment of the produce in the pressure vessel by rotating the pressure vessel and the opening and closing arrangement 10 about the axis 31 in the counterclockwise direction shown by the arrow in FIG. 2.

After the end of the treatment, the steam inlet valve 50 is closed and the steam outlet valve 51 and any safety valves are opened until the pressure in the pressure vessel approaches almost atmospheric pressure. The pressure vessel still rotates and as soon as the pressure vessel reaches the upright position, as illustrated in FIG. 2, the cover 14 drops down under the force of gravity to its fully opened position, i.e. from the position shown in dashed lines to the position shown in solid lines.

Upon further counterclockwise rotation of the pressure vessel 1 from the position shown in FIG. 2, the latching pawl 23 rotates about its axis under the force of gravity and thereby engages with the shoulder 25 as illustrated in FIG. 3. The force holding the cover 14 in the fully open position by means of the latch pawl 23 is increased by the weight of the cover acting on the pawl. The pawl can release the shoulder 25 only when the cover does not exert any force, that is, when the cover is not urged by gravity toward the opening which is the case in the position of FIG. 2.

The above described apparatus is particularly useful in the skinning of produce such as vegetables and fruits, especially tomatoes and peaches, whereby the skinning process in accordance with the invention is performed as follows. The washed produce is first filled into the pressure vessel by way of the hopper or funnel 7. The cover 14 is closed as described above. Within about two seconds the pressure within the vessel is increased to about 10 atmospheres (gauge) by introducing a suitable pressure medium. The temperature of the steam introduced into the pressure vessel is about 180°C. The high pressure is maintained within the pressure vessel until the temperature of the layer of fruit directly under the skin reaches about 180°C. Depending upon the type of fruit, the proper temperature is reached within about 5 to 20 seconds.

Since the rotation of the pressure vessel about the axis 31 starts as soon as the cover 14 is closed, the produce to be skinned is in constant movement from the time the steam is introduced into the pressure vessel and during the whole treatment time. Consequently, an even heating of the entire surface area of the produce is obtained. After the termination of the time for the steam treatment, the steam inlet valve is closed and the steam outlet valve and safety valve are opened. The rotation of the vessel, however, still continues. Due to the resulting sharp decrease in the pressure, the overheated layers under the skin of the produce to be skinned immediately begin to boil, and the skins are completely pealed off or popped off the produce. The uniform treatment of the produce over their entire surface areas is assured because in this stage of the process the rotation of the pressure vessel and the consequent movement of the procude is continued. Any remaining skin portions of the produce are removed due to the movement of the produce against one another and against the inner wall of the pressure vessel.

In a modification of the above described arrangement, as illustrated in FIG. 1, the hollow cylinder 11, in addition to being provided with the openings 15, is also provided with a smaller opening 26. The opening 26 also extends through the wall of the cylinder into the pressure vessel. The opening 26 is positioned so that it is uncovered by the piston 12 even before the openings 15 and thus prior to closing the cover 14. By this means a desired amount of steam may be introduced into the pressure vessel before the complete closing of the pressure vessel by the cover 14. The steam introduced in the pressure vessel through the opening 26 drives out unwarmed air from the pressure vessel through the opening to be closed by the cover 14. The produce thereby becomes completely surrounded by the steam whereby an essentially better and more uniform heating of the produce is obtained.

In still another modification of the above described process for skinning produce, a sufficient amount of hot water is introduced into the pressure vessel, before the loading of the produce, to just cover the bottom of the pressure vessel with the water. The water can be introduced into the pressure vessel, for example, by way of suitable filling openings (not shown) in the pressure vessel, or alternatively by way of the connections 27, 28 through the pressure inlet or pressure outlet conduits, as illustrated in FIG. 1. If desired, the water may be introduced into the pressure vessel simultaneously with the produce. The water in the pressure vessel provides the advantage that the produce is handled more carefully, since any bouncing of the produce is dampened by the water. Simultaneously, the rotation of the pressure vessel with water therein during the treatment of the produce results in more moisture surrounding the produce than when no water is employed, whereby the heat conduction is improved, and thus a more uniform treatment of the produce is accomplished. In addition, this modification of the invention shortens the treatment time due to the improved heating of the produce.

In the above described process for skinning produce, the pressure is normally completely reduced within about 5 to 7 seconds. In another embodiment of the invention, the pressure is reduced in two steps. In the first step, after the termination of the necessary time for steam treatment, the pressure is reduced to about 1/5 to 1/10 of the maximum pressure (peeling pressure). The rotation of the pressure vessel then continues for about one or at the most for three revolutions. A complete rotation of the pressure vessel takes about 5 to 10 seconds. The pressure reduction in the first step is sufficient to cause the boiling of the overheated layer under the skin to the same extent as in the above described modification with a single step pressure reduction and the skin peels off or pops off as before. The remaining pressure of about 1 to 2 atmospheres (gauge) is sufficient to hold the cover 14 in its closed position, so that the pressure vessel can still rotate completely around its axis 31 without the cover 14 falling to its fully open position under the force of gravity. Any remains of skin on the produce is thereby completely removed as a result of the rubbing of the fruits against one another due to the further rotation of the pressure vessel. One or two further revolutions of the pressure vessel are suitable to achieve this effect. In the second step in accordance with this modification of the invention, the pressure is completely released so that the cover 14 can move to its fully open position as shown at FIGS. 1 and 2. Finally, the skinned fruit is emptied from the pressure vessel.

In order to enable the use of the apparatus illustrated in the drawings in the skinning of the produce in a two step process as above described, suitable control arrangements may be provided for the valves. Such control arrangements may be conventional and need no further explanation here.

In a still further embodiment of the invention, a second latching pawl may be mounted on the cylinder 11, in a mirrorsymmetrical manner relative to lever 23 and relative to the longitudinal axis of the vessel. In other words, what is shown to the right of the cylinder 11 in FIG. 2, would also appear to the left of cylinder 11. The latching pawl on the left side of the cylinder 11 may have the same shape and be mounted in the same manner as the latching pawl 23. The two latching pawls function in similar manner, so that the second latching pawl is operative if the pressure vessel is turned in the clockwise direction.

The use of a second axially symmetrically arranged latching pawl insures that the cover 14 is only released when the pressure vessel, and consequently the closing arrangement are substantially in the vertical position as illustrated in FIG. 2.

In addition, an arrangement can be provided for stopping the movement of the latching pawl or pawls for a given time, so that the pawl means may be stopped either in its "open" position as shown in FIG. 2, or in its cover holding position as illustrated in FIG. 3. The arrangement for stopping the movement of the latching pawl means may advantageously be designed so that the latching pawl remains locked in the cover holding position following the opening of the cover 14 under the force of gravity, and after the pawl first engages the shoulder 25. Such locking of the latching pawl in a fixed position preferably continues until it is released in response to a signal indicating that the steam inlet valve 50 is to be opened. The opening of the steam inlet valve 50 is delayed, following this signal, until the pressure vessel has turned sufficiently far that the latching pawl returns to its open position under the force of gravity, as illustrated in FIG. 2.

In order to prevent the opening of the steam inlet valve at any time when the latching pawl 23 engages the shoulder 25, and thus to avoid loosening of the hook 23a due to gravity and while the pressure is exerted on the piston 12, control means may be provided which permit the opening of the steam inlet valve 50 only if the pressure vessel is nearly in its vertical position, with its opening directed upwardly, so that the latching lever 23 has released the cover. For this purpose, a control means, such as a switch (not shown) but responsive to the position of the vessel 1 or to the position of the pawl 23, may be provided for controlling the operating of the steam inlet valve 50 in a manner known as such. If desired, even the movement of the pawl or pawls 23 may be controlled by a position responsive switch or the like. For example, electromagnets could be connected to the upper end of the cylinder 11 for actuating the pawl or pawls 23. In the alternative the pawl or pawls could also be actuated by pneumatic or hydraulic means responsive to the position of the vessel 1.

In the apparatus for opening and closing the pressure vessel in accordance with the invention, no spring is required for controlling the operation of the cover. The invention employs a latching pawl or pawls 23 instead of a spring, so that the cover may be continually held completely open, whereby the pressure vessel may be emptied of the skinned produce without any trouble.

In a further embodiment of the invention, the inner wall of the pressure vessel is lined with a soft layer 29. This layer dampens the bouncing of the produce on the wall of the pressure vessel when the produce is loaded into the pressure vessel. A plastic material may be employed for lining the wall of the pressure vessel. For example, a plastic material traded under the trademark HOSTAFLON may be employed.

Although the cover latching arrangement disclosed herein has been described with reference to a peeling apparatus, it will be appreciated that the present latching arrangement may be employed in any vessel of the general construction shown. For example, the vessel could be a cleaning drum or the like. Thus, it is to be understood, that it is intended to cover all modifications and equivalents within the scope of the appended claims. 

I claim:
 1. A method for removing the skins from produce such as tomatoes and peaches, and similar fruits, in which steam is employed in a pressure vessel to heat the layer of the produce directly under the skin thereof, said method comprising first introducing water into said pressure vessel, then loading produce to be skinned into said pressure vessel by way of an inlet opening in the wall of the pressure vessel, whereby the water in the vessel prevents damage to the produce, sealing said pressure vessel inlet opening from the inside thereof by applying pressure to a closure member from the interior of said pressure vessel, increasing the pressure in said vessel by introducing steam into said pressure vessel, maintaining the pressure in said pressure vessel for a period from about 5 to 20 seconds for heating the layer under the skin of said produce sufficiently that boiling will result when the pressure in said pressure vessel is subsequently released, then releasing the pressure in said pressure vessel by opening a steam outlet valve of said pressure vessel to cause said boiling of the layer under the skin of the produce to effect the removal of the skin from the produce, the temperature and pressure of said steam in said pressure vessel being selected so that the steam in said pressure vessel is wet steam.
 2. The method of claim 1, wherein said step of increasing pressure in said pressure vessel comprises increasing the pressure in said pressure vessel to its maximum value within 2 seconds.
 3. The method of claim 1, wherein said step of increasing pressure in said pressure vessel comprises increasing said pressure to a maximum of 10 atmospheres gauge.
 4. The method of claim 1, wherein said step of maintaining said pressure comprises maintaining said pressure in said pressure vessel until the layer directly under the skin of said produce is heated to a temperature of about 180°C.
 5. The method of claim 1, wherein said step of introducing water into said pressure vessel comprises introducing heated water into said pressure vessel.
 6. The method of claim 1, wherein said step of introducing water into said pressure vessel prior to the loading thereof with said produce comprises supplying water into said pressure vessel in a sufficient amount that the bottom of said vessel is covered with water.
 7. The method of claim 1, wherein said step of releasing the pressure in said pressure vessel comprises releasing said pressure within a time from 5 to 7 seconds in duration.
 8. The method according to claim 1, further comprising continuously rotating said pressure vessel during said steps of increasing, maintaining and releasing the pressure in said pressure vessel.
 9. The method of claim 8, wherein said lowering of the pressure comprises first releasing the pressure to a value of about 20% to 10% of the maximum pressure value in the pressure vessel, then continuing to rotate the pressure vessel for about one to three revolutions, and then completely releasing the pressure from the pressure vessel.
 10. The method according to claim 9, wherein the second step of reducing said pressure occurs after about two revolutions of said pressure vessel following the first reduction of pressure, are completed.
 11. A method for removing the skins from produce such as tomatoes and peaches and similar fruits, in which steam is employed to rapidly heat the layer of produce directly under the skin thereof, said method comprising loading said produce into a pressure vessel by way of an inlet opening adapted to be sealed by a closure member, subsequently closing said inlet opening by applying pressure within said vessel to said closure member, and increasing the pressure in said pressure vessel by introducing hot steam into said pressure vessel, maintaining the pressure in said pressure vessel for a time sufficient to heat the layer under the skin of the produce to a temperature that boiling will result if the pressure in the pressure vessel is released, then releasing the pressure in said pressure vessel to cause the layer under the skin of said produce to boil and thereby to remove the skin from the produce, continuously rotating said pressure vessel during said steps of increasing, maintaining and releasing the pressure in said pressure vessel, said step of releasing the pressure in said pressure vessel comprising first lowering the pressure in said pressure vessel to a value of from 10 to 20% of the maximum pressure in said pressure vessel, then continuing to rotate said pressure vessel from one to three revolutions, and then completely releasing the pressure in said pressure vessel.
 12. The method of claim 11, wherein said second step of lowering said pressure follows two revolutions of said pressure vessel subsequent the first reduction of pressure therein. 